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Method for assisted synthesis of molecular sieve by means of ultraviolet radiation

A technology of molecular sieve and ultraviolet light, which is applied in the direction of crystalline aluminosilicate zeolite, etc., can solve the problems of special reaction, difficulty in control, and longer crystallization time of molecular sieve, and achieve the effect of reducing synthesis cost and alkalinity

Active Publication Date: 2015-09-02
JILIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

As a representative of zeolite molecular sieves, most of the artificial synthesis of silica-alumina molecular sieves is synthesized under high-alkali conditions by high-temperature and high-pressure (60-200°C) hydrothermal method. The requirements are high, and a large amount of high-alkaline wastewater is generated, which is not conducive to energy saving and emission reduction
The other requires the use of fluoride as a mineralizer. Although the alkalinity of the initial gel can be reduced to a certain extent, the presence of fluoride makes the crystallization time of molecular sieves longer. In addition, the strong corrosiveness and volatility of fluoride make The method has been bottlenecked by industrial applications
At present, in addition to the above two methods of molecular sieve synthesis, there are other methods such as microwave method, chemical vapor deposition method, ultrasonic method, etc. However, these methods have special reactions, are not easy to control, and cannot be used in large-scale production.

Method used

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  • Method for assisted synthesis of molecular sieve by means of ultraviolet radiation
  • Method for assisted synthesis of molecular sieve by means of ultraviolet radiation
  • Method for assisted synthesis of molecular sieve by means of ultraviolet radiation

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] This example provides the preparation method of room temperature synthesis of type A molecular sieve under ultraviolet radiation:

[0032]Take 36.66g of sodium silicate nonahydrate, mix with 14g of sodium hydroxide and 60g of deionized water and add it into a beaker, stir it evenly with a mixer at 300 rpm, and heat it properly to make it a clear solution A. Mix 15g of metaaluminate Sodium, 14g sodium hydroxide and 60g deionized water are mixed together and added to the beaker, stirred evenly with a mixer at 300 rpm, and can be properly heated to make it into a clear solution B, and the B solution is added dropwise to the A solution at 20mL / min In , a white initial gel is obtained, and the molar ratio of the initial gel is SiO 2 :Al 2 o 3 :H 2 O: Na 2 O is 1:0.47:60.70:4.18, kept stirring at 500 rpm for 2 hours, transferred it to a quartz container, and adjusted the distance between the UV light and the quartz container so that the UV light density was 40w / m 2 Radia...

Embodiment 2

[0036] This example provides a method for synthesizing type A molecular sieve at room temperature under ultraviolet radiation and effectively reducing the reaction alkalinity:

[0037] Mix 36.66g sodium silicate nonahydrate, 7g sodium hydroxide and 60g deionized water into a beaker, stir evenly with a mixer at 300 rpm, heat it properly to make it a clear solution A, and mix 15g metaaluminate Sodium, 7g sodium hydroxide and 60g deionized water are mixed together and added to the beaker, stirred evenly with a mixer at 300 rpm, and can be properly heated to make it into a clear solution B, and the B solution is added dropwise to the A solution at 20mL / min In , a white initial gel is obtained, and the molar ratio of the initial gel is SiO 2 :Al 2 o 3 :H 2 O: Na 2 O is 1:0.47:60.70:2.82, kept stirring at 500 rpm for 2 hours, transferred it to a quartz container, and adjusted the distance between the UV light and the quartz container so that the UV light density was 40w / m 2 Rad...

Embodiment 3

[0039] This example gives the preparation method for synthesis of type A molecular sieve at 40°C under ultraviolet radiation:

[0040] Take 2.143g of sodium silicate pentahydrate, mix with 3g of sodium hydroxide and 17.73g of deionized water and add it into a beaker, stir evenly with a mixer at 300 rpm to make it a clear solution A, and mix 0.891g of sodium metaaluminate Mix it with 3g sodium hydroxide and 18.26g deionized water and add it to the beaker, stir evenly with a mixer at 300 rpm, heat it properly to make it a clear solution B, and add solution B dropwise to solution A at 20mL / min In , a white initial gel is obtained, and the molar ratio of the initial gel is SiO 2 :Al 2 o 3 :H 2 O: Na 2 O is 1:0.47:200:15, kept stirring at 500 rpm for 2 hours, transferred it to a quartz container, and adjusted the distance between the UV light and the quartz container so that the UV light density was 40w / m 2 Radiation onto the initial gel, crystallization at 40°C for 8 hours, t...

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Abstract

The invention relates to a method for assisted synthesis of a molecular sieve by means of ultraviolet radiation, which belongs to the technical field of synthesis of the molecular sieve. The method comprises the steps of measuring a silicon source, an aluminum source and other reactants, transferring the silicon source, the aluminum source and other reactants into a quartz container, carrying out the crystallization reaction at a given reaction temperature by means of ultraviolet radiation (power density of 20 to 80 w / m<2>), washing and drying a crystallization product, and obtaining an A-type, X-type, N-type, Silicalite-1-type, Beta-type, Y-type, ZSM-5-type, MOR-type or SAPO-34-type molecular sieve. By adopting the method, the silicon-aluminum molecular sieve with good crystallization can be rapidly obtained, compared with the traditional method, the alkality and temperature of the reactant can be reduced to a certain extent, and the synthesis process of the molecular sieve can be accelerated. The production cost is greatly reduced, and the industrial application prospect is promising.

Description

technical field [0001] The invention belongs to the technical field of molecular sieve synthesis, and in particular relates to a method for synthesizing molecular sieves assisted by ultraviolet radiation. Background technique [0002] Since the 1940s, molecular sieves have been characterized by their regular channels and cage structures. It shows excellent properties and applications in catalysis, guest molecule adsorption and ion exchange. At present, most of the oil in the world is vaporized and cracked using zeolite molecular sieves as catalysts. Since molecular sieve research is closely related to industrial development, the exploration of new synthetic routes of molecular sieves has become the focus of modern scientists. As a representative of zeolite molecular sieves, most of the artificial synthesis of silica-alumina molecular sieves is synthesized under high-alkali conditions by high-temperature and high-pressure (60-200°C) hydrothermal method. The requirements a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B39/02
Inventor 于吉红冯国栋程鹏
Owner JILIN UNIV
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